EC:1.14.16.2 - FACTA Search

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Query: EC:1.14.16.2 (tyrosine hydroxylase)
14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dopa is a normal constituent of plasma in man and experimental animals. Dopa concentrations in plasma have been used to reflect the activity of tyrosine hydroxylase, the rate-limiting enzyme in the synthesis of catecholamines. However, it is not known to what extent plasma dopa is affected by feeding, since several foods contain dopa or tyrosine, the immediate precursor of dopa. In this study dopa and its major metabolites (3-O-methyldopa and free and conjugated catecholamines) were measured in plasma of dogs during 5 hr after feeding. Plasma dopa did not change significantly after feeding. This finding increases the value of plasma dopa as an index of tyrosine hydroxylase activity. Plasma norepinephrine decreased, and conjugated dopamine increased, after feeding; the other analytes did not change significantly.
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PMID:Plasma dopa and feeding. 250 63

Adult beagle dogs of either sex were injected with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-HCl (2.5 mg/kg, i.v.) alone or after pretreatment with pargyline (5.0 mg/kg, s.c., twice), with pargyline alone, or were uninjected. Groups were killed 2 h, 3 weeks, or 3 months after injection, and several brain areas were assayed for biogenic amines and their synthetic and degradative enzymes. MPTP caused a massive and permanent loss of striatal dopamine, tyrosine hydroxylase, and 3,4-dihydroxyphenylalanine decarboxylase activities and the loss of cells within the substantia nigra pars compacta. Dopamine and norepinephrine also were depleted to various degrees in cortex, olfactory bulb, and hypothalamus; however, dopamine beta-hydroxylase activity in cortex was normal. There was no cell loss in the ventral tegmental area or locus ceruleus. The activities of monoamine oxidase (MAO)-A and MAO-B in cortex and caudate were not affected by MPTP. Despite a permanent loss of the nigrostriatal system, the dogs exhibited only a transient hypokinesia lasting 1-2 weeks. Pargyline pretreatment prevented the loss of striatal dopamine and cells from the substantia nigra, but did not prevent a prolonged but reversible decrease in the concentration of dopamine metabolites. It is argued that this apparent inhibition of MAO is due not to suicide inactivation of the enzyme by MPTP, but to reversible inhibition by accumulation of the pyridinium metabolite, 1-methyl-4-phenylpyridinium, selectivity in aminergic terminals.
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PMID:Effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine in the dog: effect of pargyline pretreatment. 256 5

The concentration of 3,4-dihydroxyphenylalanine (DOPA) was low in the pancreas, liver, kidney, spleen, salivary glands, heart and adrenal glands of untreated mice, but increased following inhibition of DOPA decarboxylase by 3-hydroxybenzylhydrazine. The ratio of the accumulation of DOPA to the concentration of noradrenaline (i.e. the density of sympathetic nerves) was greater in the kidney, liver and, particularly, pancreas than in the other organs studied, suggesting that DOPA occurred outside sympathetic nerves in these organs. The tyrosine hydroxylase inhibitor alpha-methyltyrosine almost completely inhibited the accumulation of DOPA in all organs. The DOPA accumulation was enhanced in all organs by the alpha-adrenoceptor antagonists phentolamine and yohimbine. The results indicate that the DOPA was formed in the sympatho-adrenal system. In the pancreas, liver and kidney, most of the DOPA accumulated might have been formed outside these organs and transferred there via the bloodstream.
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PMID:Transfer of DOPA from the sympatho-adrenal system to the pancreas, liver and kidney via the blood circulation. 257 May 6

Tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, is subject to regulation by the cAMP as well as the calcium and cGMP second messenger systems. Treatment of intact rat PC12 cells with neuropeptides including secretin and vasoactive intestinal polypeptide (VIP) stimulated tyrosine hydroxylase activity 2 to 3-fold in vitro. Secretin (EC50 = 10 nM) was about 3 orders of magnitude more potent than VIP (EC50 = 3 microM). A combination of several protease inhibitors failed to enhance the potency of either peptide. Other members of the secretin family including glucagon and peptide histidine isoleucine (PHI) stimulated tyrosine hydroxylase activity to a lesser extent. Somatostatin, which is not homologous to secretin, was ineffective. The maximal response of tyrosine hydroxylase activation to 1 microM secretin occurred within 6-15 sec. Secretin, VIP, and forskolin also enhanced tyrosine hydroxylase activity (3,4-dihydroxyphenylalanine production) in intact cells, as determined by high performance liquid chromatography and electrochemical detection. Secretin, VIP, PHI, and glucagon increased the levels of cAMP in PC12 cells more than 10-fold, as determined by radioimmunoassay. We also demonstrated that cAMP is released from the cells into the incubation medium following secretin treatment. Secretin and VIP treatment also enhanced the activity of cAMP-dependent protein kinase in a concentration-dependent fashion, as measured subsequently in vitro. Based on the greater potency of secretin in comparison with VIP, PHI, and glucagon, we suggest that the PC12 cells contain a secretin-preferring receptor that increases cAMP levels and brings about an activation of tyrosine hydroxylase activity through the stimulation of cAMP-dependent protein kinase.
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PMID:Regulation of tyrosine hydroxylase activity in rat PC12 cells by neuropeptides of the secretin family. 257 21

Dopa decarboxylase (DDC; aromatic-L-amino-acid decarboxylase; aromatic-L-amino-acid carboxylase, EC 4.1.1.28) was purified from rat liver and its partial sequence was determined. Synthetic oligonucleotides were used to construct and screen rat liver cDNA libraries, and three clones were isolated and sequenced. The 2 kilobases of DDC cDNA cloned consisted of a 5'-noncoding segment of 78 nucleotides, a coding region of 1440 nucleotides, and a 3'-noncoding region of 438 nucleotides. The encoded protein of 480 amino acid residues had a molecular weight of 54,000. A special feature of the primary structure of rat DDC was a repeating structure consisting of 29 amino acid residues. A sequence of 58 amino acid residues, including this repeating structure of rat DDC, was found to show homologies with those of rat tyrosine hydroxylase, human dopamine beta-hydroxylase, and bovine phenylethanolamine N-methyltransferase, other mammalian enzymes that synthesize catecholamines. These results indicate that catecholamine biosynthetic enzymes are structurally related and suggest that their homologous domains are important for catechol-protein interactions.
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PMID:Molecular cloning and sequencing of a cDNA of rat dopa decarboxylase: partial amino acid homologies with other enzymes synthesizing catecholamines. 281 83

Incubation of the rat superior cervical ganglion in Na+-free or low-Na+ medium increased the rate of synthesis of 3,4-dihydroxyphenylalanine (DOPA) in the ganglion fourfold and caused a concomitant stable activation of tyrosine hydroxylase. DOPA synthesis was half-maximal in medium containing about 20 mM Na+. Low-Na+ medium also increased the incorporation of 32Pi into tyrosine hydroxylase; the dependence of tyrosine hydroxylase phosphorylation on the Na+ concentration resembled that of DOPA synthesis. The stimulatory effects of low-Na+ medium on DOPA production and on tyrosine hydroxylase activity in vitro were dependent on extra-cellular Ca2+. The stimulation of DOPA synthesis in low-Na+ medium was inhibited by methoxyverapamil, an inhibitor of Ca2+ uptake, and was partially blocked by tetrodotoxin, but it was not affected by the cholinergic antagonists hexamethonium and atropine. Ionomycin, a calcium ionophore, stimulated DOPA synthesis to about the same extent as low-Na+ medium and also increased the incorporation of 32Pi into tyrosine hydroxylase. 8-Bromo cyclic AMP (1 mM) also stimulated DOPA production in the ganglion, and this stimulation was more than additive with that produced by low-Na+ medium. These data support the hypothesis that low-Na+ medium stimulates DOPA synthesis by raising intracellular Ca2+, which then promotes the phosphorylation of tyrosine hydroxylase.
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PMID:Low-Na+ medium increases the activity and the phosphorylation of tyrosine hydroxylase in the superior cervical ganglion of the rat. 285 66

Intravitreal injection of tetrahydrobiopterin (BH4), the cofactor for tyrosine hydroxylase (TH), increases 3,4-dihydroxyphenylalanine (DOPA) accumulation in retinas of dark-adapted rats, as does exposure to light. In contrast, BH4 had no significant effect on DOPA accumulation in retinas of light-exposed rats. The levels of endogenous retinal BH4 and the uptake of injected BH4 into the retinal tissue were not affected by light exposure. These data indicate that TH is not saturated with endogenous BH4 in the retinas of dark-adapted rats. In addition, the observations support the interpretation that the decrease in apparent Km of TH for the cofactor in response to light exposure is of sufficient magnitude to allow near saturation of TH by endogenous BH4 and, thus, is causally related to the increase of dopamine biosynthesis in response to short-term photic stimulation.
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PMID:Stimulation of retinal dopamine biosynthesis in vivo by exogenous tetrahydrobiopterin: relationship to tyrosine hydroxylase activation. 286 21

Phorbol 12,13-dibutyrate (PDBu) increased the production of 3,4-dihydroxyphenylalanine (DOPA) in the superior cervical ganglion of the rat. This effect occurred without a detectable lag and persisted for at least 90 min of incubation. The action of PDBu was half-maximal at a concentration of approximately 0.1 microM; at high concentrations, PDBu produced about a twofold increase in DOPA accumulation. PDBu increased DOPA production in decentralized ganglia and in ganglia incubated in a Ca2+-free medium. The action of PDBu was additive with the actions of dimethylphenylpiperazinium, muscarine, and 8-Br-cyclic AMP, all of which also increase DOPA accumulation, and was not inhibited by the cholinergic antagonists hexamethonium (3 mM) and atropine (6 microM). Finally, PDBu did not increase the content of cyclic AMP in the ganglion. Thus, the action of PDBu does not appear to be mediated by the release of neurotransmitters from preganglionic nerve terminals, by the stimulation of cholinergic receptors in the ganglion, or by an increase in ganglionic cyclic AMP. PDBu also increased the incorporation of 32Pi into tyrosine hydroxylase. PDBu activates protein kinase C, which in turn may phosphorylate tyrosine hydroxylase and increase the rate of DOPA synthesis in the ganglion.
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PMID:Phorbol 12,13-dibutyrate increases tyrosine hydroxylase activity in the superior cervical ganglion of the rat. 286 24

The phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) caused phosphorylation of phosphoproteins of 56-kDa which co-migrated with and had identical pI values to subunits of tyrosine hydroxylase. The phosphorylation was closely correlated with an increase of [3H]3,4-dihydroxyphenylalanine (DOPA) production which is a reflection of increased tyrosine hydroxylase activity. Only those phorbol esters which activate protein kinase C induced phosphorylation of the 56-kDa proteins and increased [3H]DOPA production. Neither TPA-induced phosphorylation of the 56-kDa proteins nor TPA-induced enhancement of [3H] DOPA production required extracellular Ca2+. TPA caused increases in phosphorylation of the 56-kDa proteins and increases in [3H]DOPA production over similar concentration ranges (10-1000 nM). TPA did not increase cellular cAMP. The data suggest that phorbol ester-induced phosphorylation of intracellular tyrosine hydroxylase, possibly by protein kinase C, results in increased tyrosine hydroxylase activity.
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PMID:Effects of phorbol ester on tyrosine hydroxylase phosphorylation and activation in cultured bovine adrenal chromaffin cells. 286 6

The effect of moderate insulin deficiency of 2 weeks in duration on hypothalamic catecholamine metabolism in food-deprived and meal-fed rats was evaluated. Hypothalamic tyrosine content in food-deprived (from 0700 to 1600 h), diabetic rats was normal. Also normal were the rates of 3,4-dihydroxyphenylalanine accumulation following aromatic amino acid decarboxylase inhibition, norepinephrine and 3,4-dihydroxyphenylethylamine (dopamine) clearance after tyrosine hydroxylase inhibition, and intraneuronal amine accumulation following monoamine oxidase inhibition. Differences in hypothalamic amine metabolism were apparent, however, when diabetic and normal rats were fed 2-g meals. The 3-methoxy-4-hydroxyphenylethyleneglycol sulfate accumulation rate was depressed in diabetic rats by the carbohydrate meal but was stimulated by the tyrosine-supplemented protein meal. In contrast, the tyrosine-supplemented diet had no effect on 3,4-dihydroxyphenylacetic acid accumulation in diabetic animals, whereas the production rate in normal rats was increased. We conclude that normal responses occurring in hypothalamic catecholamine metabolism after the consumption of a meal are modified by the presence of diabetes.
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PMID:Hypothalamic catecholamine metabolism in diabetic rats: the effect of insulin deficiency and meal ingestion. 286 2

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